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Miniaturized Wireless ECG Monitor for Real-Time Detection of Epileptic Seizures ´ FABIEN MASSE, Holst Center/imec MARTIEN VAN BUSSEL, Kempenhaeghe/Hobo Heeze B.V. ALINE SERTEYN, TU Eindhoven/Signal Processing Systems JOHAN ARENDS, Kempenhaeghe/Hobo Heeze B.V. JULIEN PENDERS, Holst Center/imec Recent advances in miniaturization of ultra-low power components allow for more intelligent wearable health monitors. The development and evaluation of a wireless wearable electrocardiogram (ECG) monitor to detect epileptic seizures from changes in the cardiac rhythm is described. The ECG data are analyzed by embedded algorithms: a robust beat-detection algorithm combined with a real-time epileptic seizure detector. In its current implementation, the proposed prototype is 52 × 36 × 15mm3 , and has an autonomy of one day. Based on data collected on the first three epilepsy patients, preliminary clinical results are provided. Wireless, miniaturized and comfortable, this prototype opens new perspectives for health monitoring. Categories and Subject Descriptors: J.3 [Life Medical Science]: Health General Terms: Algorithms, Measurement, Experimentation, Human Factors Additional Key Words and Phrases: Body area network, epilepsy, real-time, wireless, ECG ACM Reference Format: Mass´ , F., van Bussel, M., Serteyn, A., Arends, J., and Penders, J. 2013. Miniaturized wireless ECG monitor e for real-time detection of epileptic seizures. ACM
ACM Transactions on Embedded Computing Systems (TECS) – Association for Computing Machinery
Published: Jun 1, 2013
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